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AWRA 2018 Spring Specialty Conference
GIS & Water Resources X:
Spatial Analysis of Watersheds – Ecological, Hydrological, and Societal Responses
April 22-25, 2018
Salon 5 & 6 / Rosen Centre Hotel, Orlando FL
PRE-CONFERENCE TECHNICAL WORKSHOP #1
GIS Support for Hydrologic and Hydraulic Modeling and Analyses
Sunday, April 22, 2018 8:00AM to 5:00PM
Cost: $89 / Registrations must be made by April 2, 2018
To register online/mail-in use this link: https://members.awra.org/event.aspx?Eventkey=fl2018
Instructors: Dean Djokic, Ph.D., Esri, Inc.,; Peter J. Singhofen, P.E., Streamline Technologies, Inc.; F. Warren McKinnie, P.E., C.F.M., Streamline Technologies, Inc.
Objectives: Understand the key concepts in GIS support for 1D and 2D hydrologic and hydraulic modeling:
- Differences in terrain processing for hydrologic and hydraulic analyses and for 1D and 2D modeling approaches.
- Drainage system determination and characterization.
- Integration of natural and man-made drainage systems into a single modeling unit.
- Derivation of 1D and 2D H&H modeling elements: pre- and post-proceessing.
- GIS as model integration and automation infrastructure.
- Roles of GIS and numerical models – single GIS environment – support for many H&H models and follow-up analyses.
Background: As a technology for spatial data storage, processing, and visualization, GIS offers many capabilities that can be used to support 1D and 2D H&H and water resources modeling. Optimizing these capabilities requires a close partnership between modeler and GIS specialist. This workshop presents a methodology to generically manage spatial data in GIS and prepare and extract a subset of that data for a specific modeling purpose. Special emphasis is placed on the symbiotic relationship between GIS and the model, both feeding off and benefiting the other. A detailed real world example is used to illustrate the work flow between GIS and the model and back to GIS for visualization and further manipulation of results. In particular, the Geographic Watershed Information System (GWIS), an implementation of Arc Hydro by the Southwest Florida Water Management District (SWFWMD), is used as an example of managing watershed infrastructure that includes both natural and manmade stormwater elements. ICPR4, a comprehensive 1D/2D integrated surface water and groundwater model, is the modeling system and analytical engine used in this example. A number of advanced GIS tools are presented for terrain analyses, spatial and temporal integration, hydrologic and hydraulic characteristics extraction, 1D and 2D numerical model input and output, modeling process automation, and result mapping. While Esri’s Arc Hydro, SWFWMD’s GWIS and Streamline Technologies’ ICPR4 are used to demonstrate the key concepts and capabilities, the concepts are general and can be used for support of any H&H, and in general, water resources model.
- Process description – the big picture.
- Understanding H&H model structure and needs.
- Basic spatial data in GIS: Infrastructure; thematic polygon map layers; terrain data; data sources
- Understanding spatial projection systems and importing/exporting spatial data.
- Developing relationships between GIS components and model elements.
- Using advanced GIS tools (Arc Hydro) to develop certain modeling layers and elements.
- Learning when and how to simplify and generalize.
- Exporting data from GIS and importing to H&H model.
- Making refinements in the model.
- Model simulations and review capabilities.
- Import new model elements and final results into GIS
- Map final results in GIS
Outcomes: The expected outcomes from the workshop are that participants will understand, by way of a real world example, the fundamental principles of GIS and H&H modeling integration, will see GIS and modeling tools in action, will gain appreciation for what GIS can and cannot do for modeling, understand differences in 1D and 2D modeling support, and understand the GIS and model limitations with respect to quality of supporting data.
Attendee Requirements: The target audience includes hydrologists, water resources engineers and managers, GIS analysts, and anyone interested in learning what GIS can do for H&H data collection, preparation, model assembly, and result processing. Attendees should have some background in GIS and/or H&H modeling. The participants will not be using computers during the workshop, so experience with particular GIS or modeling software is not required.
Schedule: (Subject to modification)
- Introduction – 8:00 a.m.
- Process description – 8:15
- Description of example project area – 8:45
- Basic ICPR4 model building blocks – 9:00
- Basic spatial data in GIS and introduction to GWIS – 9:30
- Break – 10:15
- Relationships between GIS and model components – 10:30
- Advanced GIS tools (Arc Hydro) – 10:45
- Basic GIS operations and simplifications – 11:30
- Lunch on your own – 12:00
- Export pertinent data from GIS and import to ICPR4 – 1:00 p.m.
- Refine the model in ICPR4 – 1:30
- Pre-process and review computational mesh, refine model – 2:00
- Simulation control and execution – 2:30
- Break – 3:00
- Review capabilities in ICPR4 – 3:15
- Export final results and model changes and import to GIS – 4:00
- Map final results in GIS – 4:15
- Workshop summary – 4:45
- Adjourn – 5:00
Dean Djokic, Ph.D., Water Resources Practice Manager, Esri Inc., 380 New York St., Redlands, CA 92373; firstname.lastname@example.org; 909-793-2853
Dr. Djokic is water resources practice manager for Esri's Professional Services Division that develops Arc Hydro, HEC-GeoRAS and HEC-GeoHMS. He specializes in water, sewer, storm, and water resources GIS implementations. He is also involved in water resources development and marketing at the corporate level. As an applications designer and programmer, Dr. Djokic designs and develops GIS-based custom water resources solutions. He has extensive experience in developing GIS applications for water/wastewater and environmental resource management, particularly applications related to hydrology and hydraulics. He has an in-depth understanding of GIS and water resources that enables him to ensure that applications meet engineering requirements. He has also developed and is conducting Arc Hydro and Hydrologic and Hydraulic Modeling Using GIS classes, which present the database design, tools, and techniques for the successful implementation of GIS technology for various aspects of water resources analyses.
Peter J. Singhofen, P.E., President, Streamline Technologies Inc., 1900 Town Plaza Ct., Winter Springs, FL 32708, email@example.com , 407-679-1696
Mr. Singhofen is the president, founder and owner of Streamline Technologies, Inc., an engineering software development firm located in Winter Springs, Florida. He has been a water resources professional for more than 35 years specializing in distributive physically-based integrated modeling of large-scale surface and groundwater systems. Mr. Singhofen’s interests include precipitation driven 2D surface flow, flexible triangular computational meshes, integrated 1D/2D surface flow, integrated surface water and groundwater flow, use of open source data for model construction, continuous simulation, impacts of sea level rise on groundwater and surface water systems in coastal areas, wetland hydroperiod assessments, wetland restoration metrics, and holistic modeling approaches.